KR20030034754A - Wireless communication system to support real-time services and handover method therein - Google Patents

Abstract

PURPOSE: A wireless communication system and a handoff method for a real time service are provided to prevent a transmission delay of a datagram due to the hand-off and an occurrence of blocking. CONSTITUTION: Cluster agents(410,420) construct a cluster 1(415) and a cluster 2(425) as an independent network. The cluster agents(410,420) have plural external agents(410-1-410-n,420-1-420-n). A common external agent(430) belongs to the cluster 1(415) and the cluster 2(425) commonly. The cluster agents(410,420) are connected to an HA(Home Agent)(460) through Internet(450). The home agent(460) is connected to a response host(470). An MH(Mobile Host)(480) such a cellular phone and PDA(Personal Digital Assistance) etc. receives a service of datagram from the response host(470) through external agents(410-1-410-n,420-1-420-n,430) for managing lower networks positioning itself. The response host(470) transmits path message to the MH(480) and thus the position of the MH(480) is recognized. Also, the response host(470) transmits datagram to be transmitted to the MH(480) to the HA(460). The HA(460) provides position information of the MH(480) to the response host(470) and performs capsulation of datagram received from the response host(470) and thereafter transmits the datagram to the external agents(410-1-410-n,420-1-420-n,430) positioning the MH(480).

Description

Wireless communication system to support real-time services and handover method therein}

The present invention relates to a wireless communication system and a handoff method for a real time service, and more particularly, to a wireless communication system and a handoff method for providing a real time service using a resource reservation protocol in a mobile IP environment.

Recently, due to the rapid spread of mobile communication and the Internet, Internet service is required in the wireless environment, and also the quality of service at the wired network level is required in the wireless environment. Therefore, many services such as multicast services and real-time services in a wired network are provided in a wireless environment. In particular, research on real-time services such as video conferencing, video on demand (VOD), Interactive-TV, and Telephony over Internet (VoIP) is continuing.

In 1996, a standard for a mobile Internet protocol (IP) for providing real-time services in a wireless environment was proposed by the Internet Engineering Task Force (IETF). However, the proposed mobile IP has many constraints and problems in supporting real-time services. For example, inefficient transmission path by triangle routing, release of higher protocol by frequent updating of registration information of mobile host, increase of transmission delay and blocking probability of datagram by handoff, and insulation Difficulty of setting transmission path by (Encapsulation) and Tunneling.

In order to support mobility of mobile host and guarantee continuous real-time service, fast registration information update and real-time service transmission route should be secured when handoff occurs. In the proposed mobile IP, all datagrams always go through the home agent (HA), so that the path message of the resource reservation protocol (RSVP) cannot be delivered to the moving mobile host. If the route message is delivered to the mobile host by using the tunneling method, there is a problem that the route of the real-time service always passes through the HA.

This resource reservation method is called triangle routing, which is published in IETF RFC 2002, November 1996, entitled "IP Mobility Supports" by Perkins, published in October 1996. Resources for the fifth edition of the IETF Mobile-IP Working Draft, entitled Johnson and Perkins, "Route Optimization in Mobile IP" and the Fourth International Workshop on Mobile Multimedia Communications, September-October 1997. Kang, et al., &Quot; Locality-based Route Optimization in Mobile IP. &Quot;

1 is a diagram illustrating a datagram transmission process of a mobile IP by conventional triangle routing. Referring to FIG. 1, when the mobile host 140 moves to a network managed by a foreign agent (FA) rather than a home network managed by the home agent 120, the mobile host 140 services itself. Find an external agent 130 that can receive the request for registration of its own IP address. The external agent 130 that is requested to register transmits a registration request message to the mobile host 140 to the home agent 120. Through the registration process and the update process of the registration information between the mobile host 140, the external agent 130 and the home agent 120, even if the mobile host 140 moves to any location, the home agent 120 is a mobile host ( 140 can determine the exact location.

After the location of the mobile host 140 is registered with the home agent 120, all datagrams transmitted from the response host (CH) 110 to the mobile host 140 are encapsulated in the home agent 120 to be externalized. It is transmitted through the tunnel formed by the agent 130. The external agent 130 receiving the encapsulated datagram transfers the datagram to the mobile host 140 by removing the IP header used for tunneling through decapsulation. The external agent 130 operates as a care-of-address (COA) for tunneling. In FIG. 1, since the mobile host 140 is always routed through the home agent 120, when the mobile host 140 moves away from the home network, a delay time due to registration update is increased by triangle routing.

A solution to overcome this problem was published in 2000 by Chua KC et al., "Implementing Resource Reservations for Mobile Hosts in the Internet using RSVP and Mobile." IP) and a paper entitled "Mobility management in IP networks Providing real-time service" such as Palermo.

The proposed method uses a PathChange Message. When a mobile host moves to a foreign network, the HA sends a path change message to a path message received from the CH, and the CH sends a message to the foreign network to which the mobile host moves. The path message will be sent back to the FA. However, this solution does not have a clear solution for providing continuous real-time service when the mobile host moves to another FA, that is, when a handoff between FAs occurs.

2 is a diagram illustrating a process for implementing RSVP using a route change message in a conventional mobile IP environment. When the responding host 110 transmits a route message to the mobile host 140, the home agent 120 transmits the changed location information of the mobile host 140 to the responding host 110 through a redirection message. The response host 110 receiving the redirection message transmits the redirection message to the external agent 130 where the mobile host 140 moves. The mobile host 140 transmits a reservation message through the external agent 130 to secure a transmission path for the real time service between the response host 110, the external agent 130, and the mobile host 140.

However, this solution does not have a clear solution when the mobile host 140 moves to another external agent. In other words, if a handoff occurs and moves to another ForeignNetwork, the new routing process should be set up as the initial one. At this time, all data transmitted is blocked by the existing foreign agent and causes a problem of increasing traffic of nodes and links.

On the other hand, RSVP for supporting real-time services in the wired network has a lot of constraints and problems to apply to wireless data communication in the mobile IP environment. If the mobile host moves from the home network where it was originally registered and registers with another foreign network, it cannot receive the route message transmitted from the CH and thus cannot transmit the reservation message for the real-time service. Therefore, RSVP protocol of wired network does not support mobility of mobile host. Therefore, in order to support the mobility of the host and to guarantee continuous real-time service, a structure suitable for a wireless network and an RSVP structure that can be adapted to a handoff are required.

As described with reference to FIG. 1, in the conventional triangle routing method, since all datagrams always pass through the home agent in the mobile IP, the route message of the RSVP cannot be delivered to the moving mobile host. Even if the route message is delivered to the mobile host by using the tunneling method, the route of the real-time service always passes through the external agent and the home agent, so that real-time service is impossible.

In addition, the scheme using the redirection message described with reference to FIG. 2 does not have a clear solution for continuous real-time service when the mobile host moves to another external agent, that is, when a handoff occurs between the external agents. not. In other words, this method does not guarantee the mobility of the wireless environment in which the registered network is constantly changing. Therefore, the structure suitable for the handoff scheme of the mobile IP environment should be added to the existing RSVP protocol.

3 is a diagram illustrating an object class structure of a conventional route change message. Referring to FIG. 3, the object class of the conventional redirection message includes an address of a home agent and an address of an address manager. However, this redirection message does not have information for providing continuous real-time service when the mobile host moves to another external agent. Therefore, when a handoff occurs and moves to another foreign network, the new routing process should be set up as the initial one.

An object of the present invention is to provide a wireless communication system and a handoff method for a real-time service in a mobile IP environment that can prevent transmission delay and blocking of datagrams due to handoff. have.

1 is a diagram illustrating a datagram transmission process of mobile IP by conventional triangle routing;

2 is a diagram illustrating a process for implementing RSVP using a redirection message in a conventional mobile IP environment;

3 is a diagram illustrating an object class structure of a conventional redirection message;

4 is a diagram illustrating a configuration of an embodiment of a wireless communication system for real-time service according to the present invention;

5 illustrates the structure of datagrams delivered from the responding host to the home agent and the structure of datagrams encapsulated in the home agent;

6 is a diagram illustrating a general handoff procedure according to the present invention;

7 illustrates a regional handoff procedure according to the present invention;

8 is a diagram illustrating a structure of an information request / response message transmitted from a common foreign agent to a cluster agent;

9 is a diagram illustrating a structure of a redirection message transmitted from a cluster agent to a responding host;

10 is a diagram illustrating a structure of a change message transmitted from an external agent to a cluster agent;

11A illustrates a flow of a handoff method in a wireless communication system according to the present invention;

11B is a flowchart illustrating a general handoff procedure performed in a wireless communication system according to the present invention;

11C is a flowchart illustrating a regional handoff procedure performed in a wireless communication system according to the present invention;

12 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between external agents when all external agents perform a conventional triangle routing function.

FIG. 13 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between external agents in a cluster when a part of an external agent performs a function of a cluster agent. FIG.

14 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between clusters when a part of an external agent performs a function of a cluster agent but no common external agent is provided.

FIG. 15 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between clusters when both a cluster agent and a common external agent are provided.

In order to achieve the above technical problem, a wireless communication system for a real-time service according to the present invention, forming a network consisting of a plurality of visitor management means, a plurality of mobility management means for managing mobility information of the mobile communication means; Subscriber management means for receiving the mobility information from the mobility management means and managing the location update status of the mobile communication means; And information providing means for generating the datagram to be provided to the mobile communication means according to the mobility information of the mobile communication means and delivering the datagram to the subscriber management means.

The visitor management means each forms a separate sub-network and provides a real-time service path for providing the datagram to the mobile communication means, wherein at least one of the visitor management means is a network formed by a plurality of the mobility management means. It is preferable that it is a common visitor management means included in the.

Preferably, when the mobile communication means moves to another visitor management means in a network formed by the same mobility management means, the mobility management means in which the mobile communication means is located updates the mobility information so as to update the mobility information. It provides a real-time service path between the information providing means and the mobile communication means.

The mobility management means in which the mobile communication means is located transmits a reservation message to the information providing means when providing a route message from the information providing means to provide a real-time service path between the information providing means and the mobile communication means.

The visitor management means in which the mobile communication means is located transmits a change message to the mobility management means in which the mobile communication means is located to change the mobility information.

On the other hand, when the mobile communication means is located in the sub-network formed by the common visitor management means, the common visitor management means communicates the mobile communication means to another mobility management means that is not managing the mobility information of the mobile communication means. Request a registration for the means to reserve a real-time service route.

In this case, the mobility management means in which the mobile communication means is located transmits a route change message to the information providing means to transmit information on the mobility management means to which the mobile communication means is to move, and wherein the mobile communication means is to be moved. The mobility management means receives the route message of the mobile communication means from the information providing means and transfers a reservation message to the information providing means to secure a real-time service route, and the subscriber management means updates the location registration of the mobile communication means. do.

Preferably, the common visitor management means transmits an information request message to the adjacent mobility management means, and the mobility management means corresponding to the information request message transmits an information response message to the common visitor management means and provides the information. The route change message is transmitted to the means to receive the route message from the information providing means.

A handoff method in a wireless communication system for real-time service according to the present invention comprises the steps of: a mobility management means in which a mobile communication means is located, receiving a route message from an information providing means; Identifying, by the mobility management means in which the mobile communication means is located, the visitor management means managing the mobility information of the mobile communication means; And when the visitor management means is a common visitor management means belonging to a plurality of mobility management means, the common visitor management means registers the mobile communication means with the mobility management means adjacent to the mobility management means where the mobile communication means is located. Requesting; includes.

Preferably, the mobility management means forms a network composed of a plurality of the visitor management means and manages the mobility information of the mobile communication means.

Each visitor management means forms a separate sub-network, and provides a real-time service path for providing a datagram to the mobile communication means.

The registration request step may include: transmitting, by the mobility management means in which the mobile communication means is located, a route change message to information providing means for providing a datagram; Transmitting, by the information providing means, a route message to the mobility management means to which the mobile communication means is to move; And transmitting, by the mobility management means to which the mobile communication means is to move, a reservation message to the information providing means.

On the other hand, the registration request step, the common visitor management means for transmitting the information request message to the mobility management means and the mobility management means where the mobile communication means is located; Transmitting, by the mobility management means corresponding to the information request message, the information response message to the common visitor management means; And transmitting a route change message to the information providing means to receive a route message from the information providing means.

Advantageously, said information request message comprises an address of said mobile communication means and an address of said adjacent mobility management means. The route change message may correspond to an address of the mobile communication means, an address of the common visitor management means in which the mobile communication means is located, an address of the mobility management means in which the mobile communication means is located, and the information request message. An address of the mobility management means.

On the other hand, when the visitor management means holding the mobility information of the mobile communication means is not the common visitor management means, the mobility management means where the mobile communication means is located receives a route message from the information providing means. The reservation message is transmitted to the information providing means to provide a real-time service path between the information providing means and the mobile communication means.

In addition, when the visitor management means holding the mobility information of the mobile communication means is not the common visitor management means, the visitor management means where the mobile communication means is located transmits a change message to the mobility management means. Request the change of the route to the visitor management means to move to the mobility management means.

Advantageously, said change message comprises an address of said visitor management means to be moved and an address of said mobile communication means.

Accordingly, it is possible to support real-time services in a mobile IP environment and reduce transmission delay and blocking probability of datagrams due to handoff. In addition, by configuring a plurality of external agents into one cluster and having one cluster agent (CA) representing the cluster, it is possible to prevent frequent property updates via the home agent due to the movement of the mobile host. Furthermore, handoff between clusters has overlapping agent (OA), which is an external agent overlapping between clusters, so that the communication truncation phenomenon occurs during handoff by setting the path to the next cluster in advance when handoff occurs between clusters. .

Hereinafter, a wireless communication system and a handoff method for a real-time service according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a diagram illustrating a configuration of an embodiment of a wireless communication system for real-time service according to the present invention.

Referring to FIG. 4, a wireless communication system 400 for real-time service according to the present invention includes a plurality of cluster agents (CAs) 410 and 420 and a plurality of foreign agents (FAs) 410. -1 to 410-n and 420-1 to 420-n), an overlapped agent (OA) 430, a home agent (HA) 440, and a response host (CH) ( 450).

Each cluster agent 410 and 420 configures cluster 1 415 and cluster 2 425, respectively, which are separate networks. Each cluster agent 410 and 420 also has a plurality of foreign agents 410-1 through 410-n and 420-1 through 420-n forming its own subnet. The common foreign agent 430 is an external agent commonly belonging to the cluster 1 415 and the cluster 2 425.

The cluster agents 410 and 420 are connected to the home agent 460 via the internet 450. The home agent 460 is connected with the responding host 470. A mobile host (MH) 480 such as a mobile phone or a PDA responds through external agents 410-1 to 410-n, 420-1 to 420-n, and 430 managing the subnetwork in which it is located. The datagram is served from the host 470.

The responding host 470 determines the location of the mobile host 480 by delivering a route message to the mobile host 480. The responding host 470 also forwards the datagram to be sent to the mobile host 480 to the HA 460.

The home agent 460 provides the location information of the mobile host 480 to the response host 470, encapsulates the datagram received from the response host 470, and then moves to the external agent 410 where the mobile host 480 is located. -1 to 410-n, 420-1 to 420-n, and 430).

5 illustrates the structure of datagrams delivered from the responding host 470 to the home agent 460 and the structure of the datagrams encapsulated in the home agent 460. Referring to FIG. 5, the datagram 510 delivered from the responding host 470 to the home agent 460 has an IP header and payload. In contrast, datagram 520 encapsulated in home agent 460 has an external header and an external payload. The external payload consists of the IP header and payload, which are datagrams before encapsulation.

The cluster agents 410 and 420 are agents representing one cluster and represent all external agents 410-1 to 410-n, 420-1 to 420-n, and 430 which are present at the bottom. -of-Address: acts as a COA. In addition, mobility information of the mobile host 480, that is, information of the cluster agent 410 or 420 where the mobile host 480 is located, and among the external agents 410-1 to 410-n, 420-1 to 420-n, and 430 Manage information) The cluster agent 410 or 420 acts as the tunneling endpoint of all lower foreign agents 410-1 through 410-n, 420-1 through 420-n and 430.

General handoff occurs between cluster agents 410 and 420. A general handoff that occurs between cluster agents 410 and 420 is a handoff in which registration information for home agent 460 is updated. When a general handoff occurs, the address manager changes from the cluster agent 410 where the mobile host 480 is located to the cluster agent 420 to be moved. At this time, registration of the mobile host 480 requires a relatively long registration information update time through the paths of the home agent 460, the cluster agent 410, and the mobile host 480.

The common foreign agent 430 is a duplicated foreign agent between the clusters. When the mobile host 480 enters from the foreign agent 410-n of the cluster agent 410 to which the cluster belongs, the other cluster agent 420 to which it belongs. The mobile host 480 is registered in advance before general handoff.

On the other hand, when the mobile host 480 moves in the same cluster agent 410 or 420 on a subnetwork managed by different external agents 410-1 to 410-n or 420-1 to 420-n, it is local. Handoff occurs. A regional handoff is a handoff made in the same cluster and registers the location of the mobile host 480 only by updating the location information in the cluster agent 410 or 420 without updating the registration information of the home agent 460. Regional handoff has a short registration path between cluster agent 410 or 420 and mobile host 480.

The external agents 410-1 through 410-n, 420-1 through 420-n, and 430 each form separate sub-networks and provide the mobile host 480 with datagrams received from the responding host 470. Provides a real-time service path for

In the network structure of the wireless communication system 400 as described above, the cluster agent 1 410 and the cluster agent 2 420 managing the mobility of the mobile host 480 are located in each of the clusters 1 and 2. Each cluster agent 410 and 420 acts as a care-of-address of all mobile hosts 480 registered in the network it manages. The cluster agent 1 410 is the foreign agent 1 410-1, the foreign agent 2 410-2, which is an external agent of the underlying network. , The external agent n 410-n and the common external agent 430 are managed. In addition, the cluster agent 2 (420) is the foreign agent 1 (420-1), foreign agent 2 (420-2), which is an external agent of the lower network. Manages the external agent n 420-n and the common external agent 430.

Hereinafter, a general handoff occurring when a mobile host moves to different clusters will be described in detail.

6 is a diagram illustrating a general handoff procedure according to the present invention. Referring to FIG. 6, a handoff procedure occurs when the mobile host 480 moves from the cluster 415 managed by the cluster agent 1 410 to the cluster 425 managed by the cluster agent 2 420. Is shown. The mobile host 480 moves from the external agent n 410-n to the external agent 1 420-1 through the common external agent 430.

When the mobile host 480 enters the area of the common foreign agent 430, first, the common foreign agent 430 is an adjacent cluster agent including the cluster agent 1 410 and the cluster agent 2 420 in order to obtain RSVP route information. Send the information request message to (①). Only the cluster agent 1 410 having the corresponding path to the information request message responds with the information response message, and the other cluster agent ignores the information request message (②).

The structure of the information request / response message sent from the common foreign agent 430 is shown in FIG. 8. The information request / response message includes an address of a mobile host each having a size of 4 bytes, an address of cluster agent 1, an address of cluster agent 2,... And the address of the cluster agent n.

When the mobile host 480 moves from cluster 1 415 to cluster 2 425, the address manager is also changed from cluster agent 1 410 to cluster agent 2 420. Accordingly, the location registration update of the mobile host 480 to the home agent 460 is performed, and the cluster agent 1 410 receiving the information request message transmits the mobility information of the mobile host 480 corresponding to the cluster agent 2 420. To pass. The mobility information is transmitted in such a manner that the cluster agent 1 410 transmits a route change message to the responding host 470 so as to transmit the information about the cluster agent 2 420 to which the mobile host 480 has moved. ).

9 shows the structure of a redirection message that the cluster agent sends to the responding host. Referring to FIG. 9, the redirection message may include an address of cluster agent 2 420 having a size of 4 bytes, an address of common foreign agent 430, an address of cluster agent 1 410, and a mobile host 480. Address and the like.

The cluster agent 2 420 receiving the information request message receives the route message of the corresponding mobile host 480 from the responding host 470 (④), and delivers the reservation message to the responding host 470 to the mobile host 480. ) Secures a real-time service path (⑤). The common external agent 430 located in the middle of the cluster registers a visitor with a neighboring cluster agent before handoff occurs, and reserves a real-time service path.

During the path update period of the real time service, the mobile host 480 maintains the path of the cluster agent 1 410 to receive continuous real time service. When the path update is made through step ⑤ of FIG. 6, the path of the cluster agent 1 410 is released and a real-time service is provided through the path of the cluster agent 2 420.

Hereinafter, the regional handoff occurring when the mobile host moves to different foreign agents in the same cluster will be described in detail.

7 is a diagram illustrating a regional handoff procedure according to the present invention. Referring to FIG. 7, it occurs when the mobile host 480 moves from the external agent 1 410-1 to the external agent n 410-n in the cluster 415 managed by the cluster agent 1 410. A handoff procedure is shown. Mobility management of the mobile host 480 in the same cluster is performed by a cluster agent (cluster agent 1 in the drawing) that manages the cluster. Therefore, all route messages sent from the responding host 470 are sent to the cluster agent 1 410.

The mobile host 480 moving to the external agent n 410-n requests the cluster agent 1 410 to change the path to the external agent n 410-n through the external agent n 410-n. . At this time, the external agent n 410-n transmits a change message to the cluster agent 1 410. The structure of the change message is shown in FIG. The change message includes the address of the foreign agent and the address of the mobile host each having a size of 4 bytes.

The cluster agent 1 410 changes the external agent value that matches the corresponding mobile host 480 in the visitor registration list and updates the registration status with the mobile host 480 through the external agent n 410-n. send. In addition, the reservation message by the route message is transmitted from the cluster agent 1 410 to secure the route between the response host 470 and the mobile host 480.

Therefore, the location update path due to the handoff is not made through the home agent 460, and thus, the location update path is performed in a short time. Since the local handoff process is not a registration process through the home agent 460, the address manager value is not changed, and the home agent 460 and the responding host 470 do not need to know the changed route information.

11A illustrates a flow of a handoff method in a wireless communication system according to the present invention.

Referring to FIG. 11A, the cluster agent 410 or 420 on which the mobile host 480 is located receives a route message from the responding host 470 (S1100). Upon receiving the route message, the cluster agent 410 or 420 checks the foreign agents 410-1 to 410-n, 420-1 to 420-n, and 430 managing the mobility information of the mobile host 480 ( S1120). If the foreign agent managing the mobility information of the mobile host 480 is identified as the common foreign agent 430, a general handoff is performed (S1130). On the other hand, if the foreign agent managing the mobility information of the mobile host 480 is identified as the foreign agent 410-1 to 410-n or 420-1 to 420-n belonging to the same cluster, a regional handoff is performed. It becomes (S1140).

11B is a flowchart illustrating a general handoff procedure performed in a wireless communication system according to the present invention.

Referring to FIG. 11B, when the mobile host 480 enters the area of the common foreign agent 430, first, the common foreign agent 430 is the cluster agent 1 410 and the cluster agent 2 420 to obtain RSVP route information. In step S1142, an information request message is transmitted to an adjacent cluster agent. Only the cluster agent 1 410 having the corresponding path to the information request message responds with the information response message (S1144). The other cluster agent ignores the information request message.

The cluster agent 1 410 receiving the information request message transfers mobility information of the mobile host 480 corresponding to the cluster agent 2 420 (S1146). The mobility information transfer is performed by the cluster agent 1 410 transmitting a route change message to the responding host 470 so as to transmit the information about the cluster agent 2 420 to which the mobile host 480 moves.

The cluster agent 2 420 receives the route message of the corresponding mobile host 480 from the response host 470 (S1148). In addition, the cluster agent 2 (420) transfers the reservation message to the response host 470 to secure the path of the real-time service of the mobile host (480) (S1150). In this general handoff process, the common external agent 430 located in the middle of the clusters performs a role of reserving a real-time service path by registering a visitor with a neighboring cluster agent before the handoff occurs.

11C is a flowchart illustrating a regional handoff procedure performed in a wireless communication system according to the present invention.

Referring to FIG. 11C, the mobile host 480 changes the path to the external agent n 410-n through the external agent n 410-n to the cluster agent 1 410 where the mobile host 480 is located. To request (S1162). This redirection request is made by the external agent n 410-n sending a change message to the cluster agent 1 410. The cluster agent 1 410 changes an external agent value matching the corresponding mobile host 480 in the visitor registration list (S1164). In addition, the cluster agent 1 410 transmits an update status of registration information to the mobile host 480 through the external agent n 410-n (S1166). The cluster agent 1 410 transmits a reservation message to the response host 470 to secure a real-time service path between the response host 470 and the mobile host 480 (S1168).

12 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between external agents when all external agents perform a conventional triangle routing function. Referring to FIG. 12, when the mobile host moves to the area of the external agent 2 in a situation where the datagram is transmitted in real time through the external agent 1, the mobile IP registration procedure is performed. At this time, the resource reservation setting procedure is performed between the mobile host and the external agent 2 from the beginning and passes through the home agent, thereby causing a long time blocking.

FIG. 13 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between external agents in a cluster when a part of an external agent performs a function of a cluster agent. Referring to FIG. 13, a mobile IP registration procedure is performed when a mobile host moves to an area of an external agent 2 in a situation in which datagrams are transmitted in real time through the external agent 1. At this time, since the mobile IP registration procedure is performed through the cluster agent without going through the home agent, blocking occurs only during the mobile IP registration procedure. On the other hand, since the resource reservation setting procedure is performed between the external agent 1 and the external agent 2, unlike the case described with reference to FIG. 12, blocking does not occur during the resource reservation procedure.

14 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between clusters when a part of an external agent performs a function of a cluster agent but no common external agent is provided. Referring to FIG. 14, in this case, when a handoff occurs between external agents in the cluster agent, the cluster handoff is performed as described with reference to FIG. 13 because it does not need to go through a host address. However, since there is no common external agent, the address manager cannot be changed beforehand when a handoff occurs between cluster agents. Therefore, long blocking occurs during the mobile IP registration procedure and the resource reservation setup procedure performed between the cluster agent and the home agent.

FIG. 15 is a diagram illustrating a procedure of providing a real-time service when a handoff occurs between clusters when both a cluster agent and a common external agent are provided. Referring to FIG. 15, even in the case of a handoff occurring between cluster agents, blocking occurs during the resource reservation setting procedure performed between the cluster agent and the home agent since the address manager is changed before the handoff occurs through the common external agent. I never do that.

As described above, the wireless communication system and the handoff method for the real-time service according to the present invention configure a network based on a cluster to overcome the problems occurring in the handoff in the prior art and support continuous path reservation and handoff. Place a duplicate external agent at the boundary of. Multiple foreign agents are defined as a cluster, and the handoff between the external agents in the cluster has a short path update by the local handoff, and the intercluster handoff is a relatively long path update with the general handoff.

According to a wireless communication system and a handoff method for a real-time service according to the present invention, a plurality of external agents are configured as one cluster and one cluster agent representing a cluster is provided via a home agent according to the movement of a mobile host. Frequent registration information can be prevented. In addition, by disconnecting common external agents between clusters and setting a path to the next cluster in advance when handoffs occur between clusters, communication truncation may occur.

In particular, the wireless communication system and the handoff method for the real-time service according to the present invention is suitable for a mobile communication data transmission environment in which frequent handoffs occur at high speed and a real-time service for a mobile host moving directionally on the road. . Furthermore, by adding an information request / response message, a route change message, and a change message to a message of the existing RSVP protocol, handoff occurring when providing a real-time service in a mobile IP environment can be efficiently performed.

In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. will be.

Claims (17)

A plurality of mobility management means for forming a network composed of a plurality of visitor management means, and managing mobility information of the mobile communication means; Subscriber management means for receiving the mobility information from the mobility management means and managing the location update status of the mobile communication means; And And information providing means for generating the datagram to be provided to the mobile communication means according to the mobility information of the mobile communication means and delivering the datagram to the subscriber management means. Each visitor management means forms a separate sub-network, and provides a real-time service path for providing the datagram to the mobile communication means, And at least one of the visitor management means is a common visitor management means included in a network formed by a plurality of the mobility management means. The method of claim 1, When the mobile communication means moves to another visitor management means in a network formed by the same mobility management means, the mobility management means where the mobile communication means is located updates the mobility information and the information providing means. Wireless communication system for a real-time service, characterized in that to provide a real-time service path between the mobile communication means. The method of claim 2, The mobility management means in which the mobile communication means is located transmits a reservation message to the information providing means when providing a route message from the information providing means to provide a real-time service path between the information providing means and the mobile communication means. Wireless communication system for real-time services. The method of claim 2, The visitor management means in which the mobile communication means is located transmits a change message to the mobility management means in which the mobile communication means is located so as to change the mobility information. The method of claim 1, If the mobile communication means is located in the lower network formed by the common visitor management means, the common visitor management means is connected to the mobile communication means to another mobility management means that is not managing the mobility information of the mobile communication means. Wireless communication system for a real-time service, characterized in that for reserving a real-time service path by requesting registration. The method of claim 5, The mobility management means in which the mobile communication means is located transmits a route change message to the information providing means to transmit information on the mobility management means to which the mobile communication means moves, and the mobility management means to which the mobile communication means moves. Receives a route message of the mobile communication means from the information providing means and delivers a reservation message to the information providing means to secure a real-time service route, And the subscriber management means updates the location registration of the mobile communication means. The method of claim 5, The common visitor managing means transmits an information request message to the adjacent mobility managing means, and the mobility managing means corresponding to the information request message transmits an information response message to the common visitor managing means and changes the path to the information providing means. And transmitting a message to receive a route message from the information providing means. Receiving, by the mobility management means in which the mobile communication means is located, a route message from the information providing means; Identifying, by the mobility management means in which the mobile communication means is located, the visitor management means managing the mobility information of the mobile communication means; And If the visitor management means is a common visitor management means belonging to a plurality of mobility management means, the common visitor management means requests registration of the mobile communication means to the mobility management means adjacent to the mobility management means where the mobile communication means is located. Wireless communication method for a real-time service comprising a. The method of claim 8, The mobility management means forms a network composed of a plurality of the visitor management means and manages the mobility information of the mobile communication means, the wireless communication method for a real-time service. The method of claim 8, The visitor management means each forms a separate sub-network, and provides a real-time service path for providing a datagram to the mobile communication means. The method of claim 8, The registration request step, Transmitting, by the mobility management means where the mobile communication means is located, a route change message to information providing means for providing a datagram; Transmitting, by the information providing means, a route message to the mobility management means to which the mobile communication means is to move; And And transmitting, by the mobility management means to which the mobile communication means is to move, a reservation message to the information providing means. The method of claim 8, The registration request step, Transmitting, by the common visitor management means, an information request message to the mobility management means where the mobile communication means is located and the adjacent mobility management means; Transmitting, by the mobility management means corresponding to the information request message, the information response message to the common visitor management means; And Transmitting a route change message to the information providing means and receiving a route message from the information providing means. The method of claim 12, And the information request message includes an address of the mobile communication means and an address of the mobility management means adjacent to the information request message. The method of claim 12, The route change message includes an address of the mobile communication means, an address of the common visitor management means in which the mobile communication means is located, an address of the mobility management means in which the mobile communication means is located, and the mobility corresponding to the information request message. Wireless communication method for a real-time service comprising the address of the management means. The method of claim 8, If the visitor management means that holds the mobility information of the mobile communication means is not the common visitor management means, the mobility management means where the mobile communication means is located receives the route message from the information providing means. And transmitting a reservation message to the providing means to provide a real-time service path between the information providing means and the mobile communication means. The method of claim 8, If the visitor management means that holds the mobility information of the mobile communication means is not the common visitor management means, the visitor management means where the mobile communication means is located transmits a change message to the mobility management means to transmit the mobility. Requesting a change of the route to the visitor management means to move to the management means. The method of claim 16, And said change message comprises an address of said visitor management means to be moved and an address of said mobile communication means.